Characterization of a Novel Diamond-Based Microdosimeter Prototype for Radioprotection Applications in Space Environments

Authors :: Zdenka Kuncic
Kumaravelu Ganesan
David N. Jamieson
Dale A. Prokopovich
Jayde Livingstone
Marco Petasecca
Mark I. Reinhard
A. D. C. Alves
Anatoly B. Rosenfeld
J. F. Dicello
J. F. Ziegler
Rainer Siegele
Steven Prawer
Susanna Guatelli
Michael L. F Lerch
Jeremy A Davis
Marco Zaider
V. L. Pisacane
Source :: IEEE Transactions on Nuclear Science. 59:3110-3116
Publication Year :: 2012
Publisher :: Institute of Electrical and Electronics Engineers (IEEE), 2012.
Abstract: This paper is dedicated to the characterization of a novel diamond microdosimeter prototype with 3D sensitive volumes produced by high energy boron implantation. Diamond has been chosen in order to further improve solid state based microdosimeter in terms of radiation hardness and tissue equivalency. IBIC measurements were undertaken to determine the charge collection efficiency map of the device. It was demonstrated that the proposed ion implantation technology allows for the formation of an array of well defined 3D SVs. A Geant4 application was developed to explain the effect of Al electrode thickness on observed anomaly in deposited energy. Specifics of the results and an update on the current status of the project is presented.

Subjects :: Nuclear and High Energy Physics
Space technology
Materials science
Dosimeter
Diamond-like carbon
business.industry
Detector
Diamond
engineering.material
Characterization (materials science)
Ion implantation
Nuclear Energy and Engineering
engineering
Optoelectronics
Electrical and Electronic Engineering
business
Radiation hardening

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